PATIENT 1: pH-B.   Continuing with the above question, name the patient's specific condition, and support your answer by filling in the blanks below:  Because the pH is [ Select ] lower greater than 7.40 this is [ Select ] alkalosis acidosis . A person can have this condition from having too much [ Select ] base acid or too little [ Select ] acid base . Normal value for bicarbonate are [ Select ] 22-26 mEq/L 35-45 mEq/L and normal pCO2 is [ Select ] 22-26 mmHg 35-45 mmHg . So the problem is the [ Select ] base acid making this a [ Select ] respiratory metabolic issue. The [ Select ] acid base reflects compensation which is why it is [ Select ] greater lower than normal range.  多重下拉选择题

登录即可查看完整答案

我们收录了全球超50000道真实原题与详细解析,现在登录,立即获得答案。

类似问题

According to the chemical dynamics of the blood buffering system (Le Chatelier’s Principle), when the pCO2 of the blood increases, the production of bicarbonate [ Select ] decreases increases , and the production of hydrogen ions [ Select ] increases decreases .

Question textFor each statement, select the best answer that completes the concept relating to acid-base homeostasis. Normal arterial plasma pH is maintained within a narrow range of approximately Answer 1 Question 17[select: , 7.60 to 7.80, 6.50 to 6.90, 6.80 to 7.00, 7.00 to 7.20, 7.35 to 7.45]. The most important extracellular fluid chemical buffer system is the Answer 2 Question 17[select: , protein digestion buffer system, phosphate buffer system only, carbonic acid-bicarbonate buffer system, renal sodium buffer system, oxygen-haemoglobin system only]. If ventilation increases substantially, body pH tends to rise because Answer 3 Question 17[select: , all acids stop being produced, pCO2 falls and H+ formation decreases, pCO2 rises and H+ formation increases, kidneys excrete all hydrogen ions instantly, HCO3- is immediately lost in urine]. The kidneys can raise body pH by Answer 4 Question 17[select: , retaining H+ and excreting HCO3-, increasing glucose excretion, increasing H+ excretion and increasing HCO3- reabsorption, decreasing all tubular transport, stopping urine formation]. A runner develops acidosis after extreme exercise. The most immediate compensatory response would be Answer 5 Question 17[select: , hyperventilation to lower pCO2, reduced ventilation to lower pH further, cessation of buffering, hypoventilation to retain CO2, renal bicarbonate loss within minutes]. A patient hypoventilates after sedative drug use and develops respiratory acidosis. Compensation would primarily involve Answer 6 Question 17[select: , the liver producing ketones, the kidneys increasing H+ excretion and HCO3- reabsorption, loss of all urinary buffers, the pancreas secreting bicarbonate into blood, the lungs reducing ventilation further]. Please answer all parts of the question.

Question textFor each statement, select the best answer that completes the concept relating to acid-base homeostasis. Normal arterial plasma pH is maintained within a narrow range of approximately Answer 1 Question 17[select: , 7.60 to 7.80, 6.50 to 6.90, 6.80 to 7.00, 7.00 to 7.20, 7.35 to 7.45]. The most important extracellular fluid chemical buffer system is the Answer 2 Question 17[select: , protein digestion buffer system, phosphate buffer system only, carbonic acid-bicarbonate buffer system, renal sodium buffer system, oxygen-haemoglobin system only]. If ventilation increases substantially, body pH tends to rise because Answer 3 Question 17[select: , all acids stop being produced, pCO2 falls and H+ formation decreases, pCO2 rises and H+ formation increases, kidneys excrete all hydrogen ions instantly, HCO3- is immediately lost in urine]. The kidneys can raise body pH by Answer 4 Question 17[select: , retaining H+ and excreting HCO3-, increasing glucose excretion, increasing H+ excretion and increasing HCO3- reabsorption, decreasing all tubular transport, stopping urine formation]. A runner develops acidosis after extreme exercise. The most immediate compensatory response would be Answer 5 Question 17[select: , hyperventilation to lower pCO2, reduced ventilation to lower pH further, cessation of buffering, hypoventilation to retain CO2, renal bicarbonate loss within minutes]. A patient hypoventilates after sedative drug use and develops respiratory acidosis. Compensation would primarily involve Answer 6 Question 17[select: , the liver producing ketones, the kidneys increasing H+ excretion and HCO3- reabsorption, loss of all urinary buffers, the pancreas secreting bicarbonate into blood, the lungs reducing ventilation further].

PATIENT 2: pH-D.   Continuing with the same patient, what compensation(s) would occur if this condition persists? Mark all 3 correct answers. 

更多留学生实用工具

加入我们,立即解锁 海量真题独家解析,让复习快人一步!